A tire has a rim protector which is formed at a sidewall and which constitutes an annular protrusion that extends in a tire circumferential direction. The rim protector has not less than two recesses that extend toward the tread region from a location toward the bead region in such fashion as to be directed toward a location in a second direction from a location in a first direction in the tire circumferential direction, the not less than two recesses being arranged with spaces therebetween in the tire circumferential direction. A mutually adjacent pair of recesses among the not less than two recesses are in a positional relationship such that they partially overlap as seen when projected onto a virtual plane perpendicular to a tire radial direction.
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1. A pneumatic tire comprising:
a tread region;
a pair of bead regions;
a pair of sidewalls each arranged between the tread region and the respective bead region; and
a rim protector which is formed at at least one of the pair of sidewalls and which is constituted by an annular protrusion that extends in a tire circumferential direction,
wherein in a cross-sectional view of the rim protector along a tire width direction, the annular protrusion includes an outermost surface, a first sloping portion, and a second sloping portion, the outermost surface being located at an apex of the annular protrusion in the tire width direction between a first edge and a second edge, the first edge being adjacent to the second edge in a tire radial direction, the first sloping portion extending from the first edge toward the tread region, the second sloping portion extending from the second edge toward the bead region,
wherein at least two recesses are located within the outermost surface of the annular protrusion, the at least two recesses extending toward the tread region from a location toward the bead region in such fashion as to be directed toward a location in a second direction from a location in a first direction in the tire circumferential direction, the at least two recesses being arranged with spaces therebetween in the tire circumferential direction,
wherein a mutually adjacent pair of recesses among the at least two recesses are in a positional relationship such that they partially overlap as seen when projected onto a virtual plane perpendicular to the tire radial direction, and
wherein at least one of the recesses has serrations or first small protrusions that protrude from the base of the at least one recess.
5. A pneumatic tire comprising:
a tread region;
a pair of bead regions;
a pair of sidewalls each arranged between the tread region and the respective bead region; and
a rim protector which is formed at least one of the pair of sidewalls and which is constituted by an annular protrusion that extends in a tire circumferential direction,
wherein in a cross-sectional view of the rim protector along a tire width direction, the annular protrusion includes an outermost surface, a first sloping portion, and a second sloping portion, the outermost surface being located at an apex of the annular protrusion in the tire width direction between a first edge and a second edge, the first edge being adjacent to the second edge in a tire radial direction, the first sloping portion extending from the first edge toward the tread region, the second sloping portion extending from the second edge toward the bead region,
wherein at least two recesses are located within the outermost surface of the annular protrusion, the at least two recesses extending toward the tread region from a location toward the bead region in such fashion as to be directed toward a location in a second direction from a location in a first direction in the tire circumferential direction, the at least two recesses being arranged with spaces therebetween in the tire circumferential direction,
wherein a mutually adjacent pair of recesses among the at least two recesses are in a positional relationship such that they partially overlap as seen when projected onto a virtual plane perpendicular to the tire radial direction, and
wherein at least one of the recesses has at least one second protrusion that extends so as to be directed toward the tread region from an edge toward the bead region of the at least one recess, an amount by which the at least one second protrusion protrudes being less than a depth of the at least one recess, and the at least one second protrusion being such that a gap is formed between it and an edge toward the tread region of the at least one recess.
2. The pneumatic tire according to
3. The pneumatic tire according to
4. The pneumatic tire according to
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The present disclosure relates to a pneumatic tire.
A pneumatic tire has a tread, and beads, and has sidewalls arranged between the tread and the beads. There are pneumatic tires in which a rim protector is formed along the entire circumference at a portion of the sidewall that is located toward the exterior in the tire radial direction from the region contacted by the rim flange. It is often the case that the cross-sectional shape of the rim protector is trapezoidal or triangular, being the same every here along the entire circumference of the sidewall.
Japanese Patent Application Publication Kokai No. 2002-59712 discloses that arrangement of a plurality of recesses with spaces therebetween in the tire circumferential direction at a rim protector reduces the thickness of the rim protector and suppresses generation of heat, and that the recesses also cause increase in surface area and improvement in heat dissipation characteristics.
With structures in which there is a rim protector that has recesses which extend continuously in the tire circumferential direction, because thinned regions will be present in continuous fashion in the tire circumferential direction due to the recesses, rigidity will be insufficient and the tire will be susceptible to flexing in the tire radial direction. Structures in which there is a rim protector that has a plurality of recesses which are arranged continuously without gaps therebetween in the tire circumferential direction will likewise have insufficient rigidity.
On the other hand, where a plurality of recesses are arranged with spaces therebetween in the tire circumferential direction as indicated at Patent Reference No. 1, because the spaces between the recesses will constitute projections, it will be possible to suppress decrease in rigidity. However, where a plurality of recesses are arranged with spaces therebetween at a rim protector, it will be the case that the thinned regions and thickened regions from which the recesses are formed will be arranged in alternating fashion along the tire circumferential direction. Strain tends to be concentrated at thinned regions; strain tends not to be concentrated at thickened regions where recesses are not provided. For this reason, regions at which strain tends to be concentrated are therefore arranged with spaces therebetween in the tire circumferential direction.
It is an object of the present disclosure to provide a pneumatic tire for which decrease in rigidity is suppressed while concentration of strain at recesses of a rim protector is at the same time also suppressed.
According of the present disclosure, there is provided a pneumatic tire having a tread and a bead, a sidewall arranged between the tread and the bead, and a rim protector which is formed at the sidewall and which constitutes an annular protrusion that extends in a tire circumferential direction;
wherein the rim protector has a first protruding edge which extends in the tire circumferential direction and which is toward an exterior in a tire radial direction, a second protruding edge which extends in the tire circumferential direction and which is toward an interior in the tire radial direction, a plurality of recesses arranged in the tire circumferential direction, and a plurality of ridges;
wherein the plurality of ridges respectively connect the first protruding edge and the second protruding edge, and are respectively formed between pairs of the plurality of recesses that are adjacent in the tire circumferential direction;
wherein each of the plurality of ridges comprises a first ridge that extends from the first protruding edge so as to be directed in a first direction in the tire circumferential direction to reach the second protruding edge, and a second ridge that extends from the second protruding edge so as to be directed in the first direction in the tire circumferential direction to reach the first protruding edge; and
wherein the first ridges and the second ridges are arranged in alternating fashion along the tire circumferential direction.
In accordance with this constitution, because not less than two recesses are arranged with spaces therebetween in the tire circumferential direction at rim protector which constitutes an annular protrusion, projections will be formed between pairs of mutually adjacent recesses, and it will be possible to suppress decrease in rigidity more than would be the case with a structure in which pairs of mutually adjacent recesses are arranged without gaps therebetween in the tire circumferential direction. And yet, because mutually adjacent pair(s) of recesses are in positional relationship(s) such that the members of the pair partially overlap as seen when projected onto a virtual plane perpendicular to the tire radial direction, thickened region(s) will be present at said overlapping portion(s), permitting decrease in locations at which only a thinned region is present as viewed in the tire radial direction, and making it possible to decrease locations at which strain is concentrated and to cause strain to be distributed.
Below, a pneumatic tire in accordance with a first embodiment of the present disclosure will be described with reference to the drawings.
As shown in
Furthermore, this tire is provided with toroidal carcass layer 4 which is arranged so as to span the distance between the pair of bead regions 1 and which extends from tread region 3 and passes through sidewall regions 2 to reach bead regions 1. Carcass layer 4 is made up of at least one carcass ply, and has end regions that are routed by way of bead cores 1a to be retained in upturned fashion. Arranged toward the inside circumferential surface of carcass layer 4 is inner liner rubber (not shown) for retention of air pressure.
Arranged at the outside circumferential surface of carcass layer 4 at tread region 3 is belt layer 5 which reinforces carcass layer 4 by virtue of the barrel hoop effect. Belt layer 5 has two belt plies that have cords which extend so as to be inclined by prescribed angle(s) with respect to the tire circumferential direction, the respective plies being laminated together in such fashion that the cords thereof intersect in mutually oppositely inclined fashion. Arranged toward the outside circumferential surface of belt layer 5 is belt reinforcing layer 7, and arranged at the outside circumferential surface further in that direction therefrom is the tread rubber at which the tread pattern is formed.
As examples of rubber raw material for the aforementioned rubber layers and so forth, natural rubber, styrene-butadiene rubber (SBR), butadiene rubber (BR), isoprene rubber (IR), butyl rubber (IIR), and so forth may be cited, it being possible for any one of these to be used alone, or for any two or more of these to be used in combination. Furthermore, such rubber(s) may be reinforced with carbon black, silica, and/or other such tiller, and vulcanizing agent, vulcanization accelerator, plasticizer, antioxidant, and/or the like may be blended thereinto as appropriate.
As shown in
As shown in
As shown in
Description will be carried out with respect to a tire in accordance with a second embodiment.
As shown in
As shown in
The plurality of recesses 190, 191, 192, 193, 194 shown in
As shown in
As described above, a pneumatic tire in accordance with the first or second embodiment having a tread region 3 and a bead region 1, a sidewall 2 arranged between the tread region 3 and the bead region 1, and a rim protector 9 which is formed at the sidewall 2 and which constitutes an annular protrusion that extends in a tire circumferential direction CD. The rim protector 9 has not less than two recesses (90, 91, 92, 190, 191, 192, 193, 194) located within the outermost surface at the apex of the annular protrusion. The not less than two recesses (90, 91, 92, 190, 191, 192, 193, 194) extend toward the tread region 3 from a location toward the bead region 1 in such fashion as to be directed toward a location in a second direction CD2 from a location in a first direction CD1 in the tire circumferential direction CD. The not less than two recesses (90, 91, 92, 190, 191, 192, 193, 194) being arranged with spaces therebetween in the tire circumferential direction CD. A mutually adjacent pair(s) of recesses (90, 91) (91, 92) (190, 191) (191, 192) (192, 193) (193, 194) among the not less than two recesses (90, 91, 92, 190, 191, 192, 193, 194) are in a positional relationship(s) such that they partially overlap as seen when projected onto a virtual plane perpendicular to a tire radial direction RD.
In accordance with this constitution, because not less than two recesses (90, 91, 92, 190, 191, 192, 193, 194) are arranged with spaces therebetween in the tire circumferential direction CD at rim protector 9 which constitutes an annular protrusion, projections will be formed between pairs of mutually adjacent recesses, and it will be possible to suppress decrease in rigidity more than would be the case with a structure in which pairs of mutually adjacent recesses are arranged without gaps therebetween in the tire circumferential direction. And yet, because mutually adjacent pair(s) of recesses (90, 91) (91, 92) (190, 191) (191, 192) (192, 193) (193, 194) are in positional relationship(s) such that the members of the pair partially overlap as seen when projected onto a virtual plane perpendicular to the tire radial direction RD, thickened region(s) will be present at said overlapping portion(s), permitting decrease in locations at which only a thinned region is present as viewed in the tire radial direction RD, and making it possible to decrease locations at which strain is concentrated and to cause strain to be distributed.
As is the case in the first or second embodiment, it is preferred that the not less than two recesses (90, 91, 92)[190, 191, 192, 193, 194] constitute one group (G) and a plurality of the groups (C) are arranged with uniform spaces therebetween in the tire circumferential direction CD.
This constitution will make it possible to cause strain to be distributed uniformly in the tire circumferential direction CD.
As is the case in the first second embodiment, it is preferred that not less than three of the recesses (90, 91, 92)[190, 191, 192, 193, 194] are one group, and mutually adjacent pain of the recesses (90, 91) (91, 92) (190, 191) (191, 192) (192, 193) (193, 194) within each of the groups are in positional relationships such that they partially mutually overlap as seen when projected onto virtual planes (VF) perpendicular to the tire radial direction RD.
This constitution will make it possible to decrease locations at which only a thinned region is present as viewed in the tire radial direction RD, and will make it possible to decrease locations at which strain is concentrated and to cause strain to be distributed
As is the case in the second embodiment, it is preferred that at least one of the recesses (192, 193, 194) has serrations or first small protrusions 192s, 193s, 194s that protrude from the base of the at least one recess. This constitution will make it possible to improve visual attractiveness.
As is the case in the second embodiment, it is preferred that at least one of the recesses (192, 193, 194) has at least one second protrusion 195 that extends so as to be directed toward the tread region from an edge 196 toward the bead region of the at least one recess, an amount by which the at least one second protrusion 195 protrudes being less than a depth D1 of the at least one recess, and the at least one second protrusion 195 being such that a gap (Gp) is formed between it and an edge 197 toward the tread region of the at least one recess.
This constitution will make it possible to cause decrease in rigidity due to recesses (192, 193, 194) to be suppressed as a result of presence of second protrusions 195, and will also make it possible for air to be made to pass through gaps Gp during rotation and for heat dissipation characteristics to be improved.
While embodiments in accordance with the present disclosure have been described above with reference to the drawings, it should be understood that the specific constitution thereof is not limited to these embodiments. The scope of the present disclosure is as indicated by the claims and not merely as described at the foregoing embodiments, and moreover includes all variations within the scope of or equivalent in meaning to that which is recited in the claims.
Structure employed at any of the foregoing embodiment(s) may be employed as desired at any other embodiment(s). The specific constitution of the various components is not limited only to the foregoing embodiment(s) but admits of any number of variations without departing from the gist of the present disclosure.
Kuwano, Shingo, Yasunaga, Toshikazu
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Jul 31 2019 | YASUNAGA, TOSHIKAZU | Toyo Tire Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 051193 | /0439 | |
Aug 01 2019 | KUWANO, SHINGO | Toyo Tire Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 051193 | /0439 | |
Dec 05 2019 | Toyo Tire Corporation | (assignment on the face of the patent) | / |
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